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Crystalline-amorphous nanowires for battery electrodes

a technology of crystalline amorphous nanowires and battery electrodes, which is applied in the direction of secondary cell servicing/maintenance, cell components, electrochemical generators, etc., can solve the problems of short battery life, fading capacity, and often limiting factors

Active Publication Date: 2011-06-23
THE BOARD OF TRUSTEES OF THE LELAND STANFORD JUNIOR UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0008]The present invention is directed to overcoming the above-mentioned challenges and others related to the types of applications discussed above and in other applications. These and other aspects of the present invention are exemplified in a number of illustrated implementations and applications, some of which are shown in the figures and characterized in the claims section that follows.

Problems solved by technology

In electric vehicles, these aspects are often limiting factors in the speed, power and operational range of the electric vehicles.
A limitation in some graphitic anodes is that Li is saturated in graphite at the LiC6 stoichiometry.
In films and micron-sized particles, such volume changes may cause the Si to pulverize and lose contact with the current collector, resulting in capacity fading and short battery lifetime.
Electrodes made of thin amorphous Si may exhibit improvements in capacity stability over many cycles, but such films seldom have enough active material for a viable battery.
Attempts to increase conductivity using conducting carbon additives have not completely solved such problems, since upon dealloying (delithiation), the particles may contract, and thereby, lose contact with the carbon.
Si anodes have been prepared with a polymer binder such as poly(vinylidene fluoride) (PVDF) to attempt to hold the particles together, but the elasticity properties of PVDF may not be sufficient for the large Si volume change and do not completely mitigate the poor conductivity.
This results in a low coulombic efficiency and poor cyclability.
For example, the use of 10 μm sized Si particles mixed with carbon black and PVDF has been shown to result in a first discharge capacity of 3260 mAh / g; however, the charge capacity is only 1170 mAh / g, indicating a poor coulombic efficiency of only 35%.
Moreover, conductive additives and binders add weight to the electrode, lowering the overall gravimetric and volumetric capacities of the battery.
These and other characteristics have been challenging to the design, manufacture and use of Li-alloy materials in Li-battery anodes.
Current efforts, however, leave room for improvement.

Method used

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Embodiment Construction

[0036]The present invention is believed to be applicable to a variety of different types of ion batteries and devices and arrangements involving crystalline-amorphous nanowire electrodes. While the present invention is not necessarily so limited, various aspects of the invention may be appreciated through a discussion of examples using this context.

[0037]Embodiments of the present disclosure relate to nanowires having a crystalline core and an amorphous shell (ca-nanowires). As used herein, crystalline material includes single crystalline material as well as substantially-single crystalline material. Substantially-single crystalline material includes crystalline material that the majority of the material is either part of a single crystalline structure or is generally aligned therewith. As such, substantially-single crystalline material can include a relatively low number of discontinuities, including imperfections and / or few breaks in the crystalline structure. Amorphous material i...

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Abstract

Electrodes, batteries, methods for use and manufacturing are implemented to provide ion-based electrical power sources and related devices. Consistent with one such method, a battery electrode is produced having nanowires of a first material. The electrode is produced using a single growth condition to promote growth of crystalline nanowires on a conductive substrate and of the first material, and promote, by maintaining the growth condition, growth of an amorphous portion that surrounds the crystalline nanowires.

Description

FEDERALLY-SPONSORED RESEARCH AND DEVELOPMENT[0001]This invention was made with Government support under contract N00014-08-1-0713 awarded by the Office of Naval Research. The U.S. Government has certain rights in this invention.FIELD OF THE INVENTION[0002]The present invention relates generally to ion battery arrangement and methods, and more particularly to crystalline-amorphous nanowires useful for electrode arrangements and approaches involving the assembly or manufacture of nanowires for such arrangements.BACKGROUND[0003]The demand for batteries with high energy capacity, low weight and long lifetime has become increasingly important in a-variety of fields and industries, including those relating to portable electronic devices, electric vehicles, and implantable medical devices. For example, the energy capacity, weight and cycle life characteristics are often useful for improving the functionality of a particular device in which the batteries are used. In portable electronic dev...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): H01M10/44H01M4/04H01M4/02
CPCB82Y10/00B82Y30/00H01M4/134H01M4/1395H01M10/0525H01M10/44H01L29/413Y02E60/122Y02E60/50H01M4/386C08J5/047C08J5/06Y02T10/7011Y02E60/10Y02T10/70
Inventor CUI, LI-FENGCHAN, CANDACE K.RUFFO, RICCARDOPENG, HAILINCUI, YI
Owner THE BOARD OF TRUSTEES OF THE LELAND STANFORD JUNIOR UNIV
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